CN203470602U - Parallel flow evaporator spacer groove machining device - Google Patents

Abstract

The utility model relates to a parallel flow evaporator spacer groove machining device which comprises a working table, a stamping assembly, guide rails and a sliding insertion bar assembly. The stamping assembly is arranged on one end portion of the working table, the guide rails are transversely arranged on the working table on the lower end portion of the stamping assembly, and the sliding insertion bar assembly is transversely arranged on the guide rails. According to the parallel flow evaporator spacer groove machining device, the machining of spacer grooves of two workpieces can be completed simultaneously by driving tools through an air cylinder, working efficiency is improved, burrs cannot be generated, and potential safety hazards of products are eliminated. The workpieces can be located quickly and accurately through the sliding insertion bar assembly and an accurate locating unit, the uniformity of the machining of the spacer grooves is ensured, and the rate of finished products is improved effectively. Automatic operation of the parallel flow evaporator spacer groove machining device is achieved by arranging a detecting switch, and thus labor cost is reduced effectively. The parallel flow evaporator spacer groove machining device is simple in structure and scientific and reasonable in design, the automatic operation of the machining of the spacer grooves is achieved, manpower is saved effectively, and working efficiency and the qualified rate of the products are improved greatly.

Description

Parallel-flow evaporator spacer slit processing unit (plant)

Technical field

The utility model belongs to automobile manufacturing field, relates to parallel-flow evaporator, especially a kind of parallel-flow evaporator spacer slit processing unit (plant).

Background technology

Parallel-flow evaporator is as the up-to-date evaporimeter with high heat exchanger effectiveness structure, and the whole world each Main Auto air-conditioning system supplier drops into huge fund and conducts in-depth research all the time.Wherein evaporimeter runner is one of key factor affecting evaporimeter heat exchange property, and the design of evaporimeter runner is the Focal point and difficult point research project of flat flow evaporimeter with processing.

In the production process of parallel-flow evaporator, spacer slit is processed as critical process, the spacer slit processing method the most often adopting adopts horizontal milling machine processing or adopts special saw machine processing, but the spacer slit of above-mentioned two kinds of processing modes processing produces a large amount of burrs, clean very difficult, if do not wash clean clearly the expansion valve that burr can stop up air-conditioning system, to product quality, bring greatly hidden danger.

Utility model content

The purpose of this utility model is the defect that is to make up in prior art, and a kind of simple in structure, easy to use, parallel-flow evaporator spacer slit processing unit (plant) of not producing burr, increasing work efficiency is provided.

The utility model is achieved in that

A kind of parallel-flow evaporator spacer slit processing unit (plant), comprise workbench, punch assembly, guide rail and slip cutting assembly, described workbench one end is provided with punch assembly, on the workbench of this punch assembly bottom, be horizontally installed with guide rail, a slip cutting assembly is laterally slidably installed on this guide rail.

And, described punch assembly comprises substrate, gripper shoe, cutter fixed head and top board, described substrate is arranged on workbench, above substrate, by guide pillar successively spaced and parallel, gripper shoe is installed, cutter fixed head and top board, the upper end of this top board is provided with cylinder, the tailpiece of the piston rod of this cylinder is connected with the upper surface of cutter fixed head, the lower surface of this cutter fixed head and corresponding described guide rail are fixed with cutter, the bottom of described cutter is inlaid in the cutter through hole that gripper shoe is shaped with, between the ambilateral cutter fixed head of cutter and gripper shoe, be separately installed with back-moving spring, the cutter through hole both sides of this gripper shoe lower surface are separately installed with upper limit position block, the substrate upper surface of corresponding two upper limit position blocks is separately installed with lower position block, one back-moving spring is installed equally between substrate and gripper shoe.

And, described slip cutting assembly comprises slide block and cutting, and this cutting is packed in the inboard upper end of described slide block, and the bottom of this slide block is slidably mounted on guide rail, in the upper surface of cutting, right limit bar is installed, guide rail left part that should right limit bar is provided with to left limit bar.

And, on the guide rail near substrate inboard, be shaped with locating hole, up and down installation one spacer in this locating hole, this spacer is by the air cylinder driven being arranged in workbench.

And, on the workbench of described guide rail one side, a sense switch is installed.

And described guide rail is two.

And a block is installed in the end of described guide rail.

Advantage of the present utility model and beneficial effect are:

1, the spacer slit that this device can complete two workpiece by air cylinder driven cutter is simultaneously processed, and not only increases work efficiency, and does not produce burr, has eliminated the potential safety hazard of product.

2, this device by slip cutting assembly and accurately positioning unit can be fast, accurately workpiece is located, guaranteed the uniformity of spacer slit processing, effectively improve yield rate.

3, this device has been realized the automation mechanized operation of this device by the installation of sense switch, effectively reduces cost of labor.

4, the utility model is simple in structure, design science is reasonable, has realized the automation mechanized operation of spacer slit processing, effectively saves manpower, has improved greatly operating efficiency and product percent of pass.

Accompanying drawing explanation

Fig. 1 is front view of the present utility model;

Fig. 2 is the top view of Fig. 1;

Fig. 3 is that the A of Fig. 1 is to view;

Fig. 4 is the I portion enlarged drawing of Fig. 1.

The specific embodiment

, the utility model is further illustrated, following embodiment is illustrative, is not determinate, can not limit protection domain of the present utility model with following embodiment below by accompanying drawing also in conjunction with the embodiments.

A kind of parallel-flow evaporator spacer slit processing unit (plant), as shown in Figures 1 to 4, comprise workbench 14, punch assembly, guide rail 8 and slip cutting assembly, described workbench one end is provided with punch assembly, the top of this punch assembly installs one for driving the cylinder 1 of punch assembly, a cushion block 12 is installed in the other end of this workbench, on cushion block and punch assembly bottom, is horizontally installed with guide rail, and a slip cutting assembly is laterally slidably installed on this guide rail.

In the present embodiment, described punch assembly comprises the substrate 6 that shape is identical, gripper shoe 5, cutter fixed head 4 and top board 2, described substrate is two, mutually stack and be arranged on workbench, above substrate, by four guide pillars 3 successively spaced and parallel, gripper shoe is installed, cutter fixed head and top board, the upper end of described top board is provided with cylinder, the tailpiece of the piston rod of this cylinder is connected with the upper surface of cutter fixed head, the lower surface of this cutter fixed head and corresponding described guide rail are fixed with two sheet cutters 19, the bottom of described cutter is inlaid in gripper shoe in the cutter through hole 18 to should cutter being shaped with respectively, as shown in Figure 3, between the ambilateral cutter fixed head of cutter and gripper shoe, be separately installed with back-moving spring 21, the cutter through hole both sides of this gripper shoe lower surface are separately installed with upper limit position block 17, the substrate upper surface of corresponding two upper limit position blocks is separately installed with lower position block 16, one back-moving spring is installed equally between substrate and gripper shoe, as shown in Figure 3.

The operation principle of this punch assembly is:

Described air cylinder driven cutter fixed head and gripper shoe move down, thereby with cutter, move down and pass the lower surface of gripper shoe, gripper shoe moves down simultaneously and is spacing by carrying out after upper and lower spacing collision, after punch work completes, cylinder is return and by back-moving spring, gripper shoe and cutter fixed head is resetted.

Described slip cutting assembly comprises slide block 11 and cutting 9, as shown in Figure 1 and Figure 2, described cutting is two, and the parallel upper end, described slide block left side that is packed in, the bottom of this slide block is slidably mounted on guide rail, on the upper surface of two cuttings, be separately installed with the right limit bar 10 for workpiece location, guide rail left part that should right limit bar is provided with to left limit bar 15.

In this device, be also provided with for by the accurate positioning unit of workpiece, concrete mounting structure as shown in Figure 4:

On two guide rails near substrate right side, be shaped with respectively locating hole 7, up and down installation one spacer 22 of difference in this locating hole, this spacer is driven by the cylinder 23 being arranged in workbench.

In order to realize the automation mechanized operation of this device, one sense switch 20 is installed on the workbench of locating hole one side, as shown in Figure 2, when slide block moves and touches this sense switch, cylinder 23 actions are also stuck in spacer (not shown) in the elongated slot being shaped with on workpiece, and object is that workpiece is accurately located.

For anti-limited slip block comes off, a block 13 is installed in the right part of guide rail.

Operation principle of the present utility model is:

First cutting is inserted in the cavity of workpiece, then slide block is moved to punch assembly direction, thereby workpiece is fixed between left limit bar and right limit bar, now slide block touching sense switch, cylinder 23 actions are also stuck in spacer (not shown) in the elongated slot being shaped with on workpiece, then start punch assembly and carry out spacer slit processing, after machining, punch assembly and spacer playback, remove taking-up workpiece by slide block.

The utility model has the advantage of:

The spacer slit that can simultaneously complete two workpiece by air cylinder driven cutter is processed, and not only increases work efficiency, and does not produce burr; Accurately positioning unit can be fast, accurately by workpiece location, guaranteed the uniformity of spacer slit processing, improve yield rate; The installation of sense switch has realized the automation mechanized operation of this device, effectively reduces cost of labor.

It is emphasized that; embodiment described in the utility model is illustrative; rather than determinate; therefore the utility model comprises and is not limited to the embodiment described in the specific embodiment; every other embodiments that drawn according to the technical solution of the utility model by those skilled in the art, belong to the scope that the utility model is protected equally.

Claims (7)

1. a parallel-flow evaporator spacer slit processing unit (plant), it is characterized in that: comprise workbench, punch assembly, guide rail and slip cutting assembly, described workbench one end is provided with punch assembly, on the workbench of this punch assembly bottom, be horizontally installed with guide rail, a slip cutting assembly is laterally slidably installed on this guide rail.

2. parallel-flow evaporator spacer slit processing unit (plant) according to claim 1, it is characterized in that: described punch assembly comprises substrate, gripper shoe, cutter fixed head and top board, described substrate is arranged on workbench, above substrate, by guide pillar successively spaced and parallel, gripper shoe is installed, cutter fixed head and top board, the upper end of this top board is provided with cylinder, the tailpiece of the piston rod of this cylinder is connected with the upper surface of cutter fixed head, the lower surface of this cutter fixed head and corresponding described guide rail are fixed with cutter, the bottom of described cutter is inlaid in the cutter through hole that gripper shoe is shaped with, between the ambilateral cutter fixed head of cutter and gripper shoe, be separately installed with back-moving spring, the cutter through hole both sides of this gripper shoe lower surface are separately installed with upper limit position block, the substrate upper surface of corresponding two upper limit position blocks is separately installed with lower position block, one back-moving spring is installed equally between substrate and gripper shoe.

3. parallel-flow evaporator spacer slit processing unit (plant) according to claim 1 and 2, it is characterized in that: described slip cutting assembly comprises slide block and cutting, this cutting is packed in the inboard upper end of described slide block, the bottom of this slide block is slidably mounted on guide rail, in the upper surface of cutting, right limit bar is installed, guide rail left part that should right limit bar is provided with to left limit bar.

4. parallel-flow evaporator spacer slit processing unit (plant) according to claim 1 and 2, it is characterized in that: on the guide rail near substrate inboard, be shaped with locating hole, up and down installation one spacer in this locating hole, this spacer is by the air cylinder driven being arranged in workbench.

5. parallel-flow evaporator spacer slit processing unit (plant) according to claim 1 and 2, is characterized in that: on the workbench of described guide rail one side, a sense switch is installed.

6. parallel-flow evaporator spacer slit processing unit (plant) according to claim 1 and 2, is characterized in that: described guide rail is two.

7. parallel-flow evaporator spacer slit processing unit (plant) according to claim 1 and 2, is characterized in that: a block is installed in the end of described guide rail.

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